A Blue Whale Had His Heartbeat Taken for the First Time Ever — And Scientists Are Shocked

Blue whales are the largest animals to ever live on Earth.
Blue whales are the largest animals to ever live on Earth. (Image credit: QAI Publishing/Universal Images Group via Getty Images)

When the largest animals on Earth grab a snack, their hearts skip a beat — or sometimes 30. 

That's what a team of marine biologists found after recording a blue whale's heartbeat for the first time ever. After suction-cupping a pulse monitor to the back of a blue whale off the California coast, the researchers watched as the gargantuan creature dove and resurfaced nonstop for nearly 9 hours, alternately filling its lungs with air and its belly with schools of tasty fish hundreds of feet below the surface. 

During these deep, grub-hunting dives, the whale's heart rate see-sawed wildly, pumping as many as 34 times per minute at the surface and as few as just two beats per minute at the deepest depths — about 30% to 50% slower than the researchers expected.

According to a new study published yesterday (Nov. 25) in the journal Proceedings of the National Academy of Sciences, the simple act of catching a bite may push a blue whale's heart to its physical limits — and that could explain why no creatures larger than blue whales have ever been spotted on Earth.

"Animals that are operating at physiological extremes can help us understand biological limits to size," lead study author Jeremy Goldbogen, an assistant professor at Stanford University in California, said in a statement. In other words: If a blue whale's heart could not possibly pump any faster to fuel its daily foraging expeditions, how could a larger animal's heart pump even faster to fuel it with even more energy? 

The biggest hearts on Earth

Blue whales are the largest animals ever known to have lived on Earth. As full-grown adults, blue whales can measure more than 100 feet (30 meters) long, or roughly the size of two school buses parked bumper-to-bumper. It takes a big heart to power a creature that size; while not actually large enough for a human to swim through, as an urban myth claims, one beached blue whale's heart weighed in at 400 pounds (180 kilograms) in 2015 and looked to be about the size of a golf cart. 

Related: 6 Strangest Hearts in the Animal Kingdom

Scientists already knew that a blue whale's pulse must slow down at depth. When air-breathing mammals dive underwater, their bodies automatically start redistributing oxygen; hearts and brains get more O2, while muscles, skin and other organs get less. This allows animals to stay underwater longer on a single breath, and it results in a significantly lower heart rate than normal. This is as true for human landlubbers as it is for blue whales — however, given the whale's gargantuan size and proficiency at diving more than 1,000 feet (300 m) below the surface, their hearts are pushed to limits far beyond ours. 

To find out exactly how much a blue whale's heart rate changes during a dive, the study authors followed a group of whales they'd previously studied in Monterey Bay, California, and tagged one with a special sensor mounted on the end of a 20-foot-long pole (6 m). The whale was a male first sighted 15 years ago. The sensor was a plastic, lunchbox-size shell equipped with four suction cups, two of which contained electrodes for measuring the whale's heartbeat. 

The researchers tagged the whale with the sensor on their first attempt, and there it remained for the next 8.5 hours as the whale dove down and resurfaced on dozens of food-foraging missions. Most of this time was spent underwater: The whale's longest dive lasted 16.5 minutes and reached a maximum depth of 600 feet (184 m), while the whale never spent more than 4 minutes at the surface to refill its lungs.

Related: 15 of the Largest Animals of Their Kind

The sensor showed that, at the lowest depths of each dive, the whale's heart was beating an average of four to eight times a minute, with a low of just two beats per minute. Between these low-tempo beats, the whale's stretchy aortic artery slowly contracted to keep oxygenated blood slowly moving through the animal's body, the researchers wrote.

Back at the surface, the whale's heart rate accelerated to a blistering 25 to 37 beats per minute, rapidly charging the animal's bloodstream with enough oxygen to support the next deep dive. During these rapid refueling stops, the whale's heart was working close to its physical limits, the study authors wrote — it's unlikely a whale's heart could beat any faster than that. 

This natural cardiac limit may explain why blue whales max out at a certain size, and why there have never been any known animals on Earth any larger. Because a bigger creature would require even more oxygen to sustain its long, deep dives for sustenance, its heart would need to beat even faster than a blue whale's to refuel its body with oxygen at the surface. 

According to the study authors, that doesn't seem possible based on the current data; blue whales may have — now and forever — the hardest-working hearts on Earth.

Originally published on Live Science.

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Brandon Specktor

Brandon is the space/physics editor at Live Science. His writing has appeared in The Washington Post, Reader's Digest, CBS.com, the Richard Dawkins Foundation website and other outlets. He holds a bachelor's degree in creative writing from the University of Arizona, with minors in journalism and media arts. He enjoys writing most about space, geoscience and the mysteries of the universe.

  • David I
    admin said:
    Scientists recorded a blue whale's heartbeat for the first time, and found that the world's largest creatures can survive on just two beats per minute while diving for food.

    A Blue Whale Had His Heartbeat Taken for the First Time Ever — And Scientists Are Shocked : Read more

    This article refers to blue whales "filling their bellies with tasty fish."

    Blue whales do not eat fish. They eat mostly krill, and assorted copepods. The biggest animal on the plant survives by eating some of the smallest.
  • Scion
    of course they do, David - a Blue Whale ingests whatever creatures are trapped in its baleen - which includes tiny fish, by the barrell
  • khuber
    Slow heartbeat makes perfect sense if the heart is a ram driven by voltage across capillary and blood vessel walls PUSHING blood into the heart. See Human Heart, Cosmic Heart by Thomas Cowan.

  • MD1
    khuber said:
    Slow heartbeat makes perfect sense if the heart is a ram driven by voltage across capillary and blood vessel walls PUSHING blood into the heart. See Human Heart, Cosmic Heart by Thomas Cowan.

    Medical scientists don't publish books, they publish peer-reviewed papers in academic journals. A look into Cowan's background shows support for homeopathy (a complete hoax / pseudoscience), and Anthroposophic medicine (occult / spiritual healing) just to name a couple of farcical notions he promotes. An additional search for peer-reviewed articles he's written turns up nothing. Seems to me he make money selling snake oil to people who know less than he does. As a professor of anatomy and physiology myself, and as someone who has cut into many human bodies, your statement (or Cowen's statement) about voltages across capillary and blood vessel walls makes no sense, from both an anatomical and chemistry/physics point of view. I'm not saying it's your fault for falling for his nonsense, but his fault for pushing fake science on unsuspecting people just to make a buck on book sales.
  • khuber
    Read Professor Gerald Pollack's The Fourth Phase of Water. It's a good introduction. And if you can open your mind a bit, Cowan's book as well. There's a whole world out there that has nothing to do with making money. Don't be so dismissive. I too have degrees and experience. If you really want to think about weird science, consider Professor Tiller's work showing that thoughts can affect matter and the outcome of experiments. Might negative thoughts prevent replication of experiments? Conventional medicine is failing us and seems 20 years behind current research. We need to look elsewhere.